Over 90 percent of occupied space within the 6,415-square-foot laboratory renovation was designed with access to daylight and views. Additionally, 39 percent of materials used were manufactured locally and 80 percent of construction waste was diverted from landfills. Overall, the space is projected to use 13 percent less lighting power.

The building features salvaged existing materials and energy-efficient lighting, improved HVAC systems and water-saving fixtures. The project also used building materials with low or no volatile organic compounds and Forest Stewardship Council-certified forest products, and recycled more than 90 percent of construction waste.

On March 2, the college began construction on a new, 40,000-square-foot residence hall designed to meet LEED for Homes standards, and is expected to achieve Platinum rating. Energy-efficient exterior walls and roof, high-efficiency windows and connection to the central energy plant are among the many features that help reduce carbon emissions. Additionally, an upgraded stormwater-management system, including a rain garden, will minimize impacts to the existing community systems.

Increasing its use of biomass and other renewable energy sources, the university has teamed up with industry experts to develop diverse fuel sources and to optimize the power plant’s handling and combustion of these new alternative fuels in order to eliminate the use of coal by 2025. The current biomass fuel portfolio includes oat hulls, Miscanthus grass and wood chips.

(U.K.) After hitting a 35 percent reduction from a 2008-09 baseline, the university announced a new carbon reduction goal–45 percent by the 2020-21 academic year. To date, more than 4 million pounds ($4.9 million) has been invested into projects to improve energy performance, the savings from which will be reinvested back into sustainability initiatives. In addition, plans are already underway to reduce water consumption by 10 percent.

The building is co-located near public transportation, and uses light-colored concrete to reflect light, and stormwater retention and filtering. By weight, the materials used in construction have 32 percent recycled content, and by cost, more than 55 percent came from within 500 miles.

The building is located close to bike lanes and bus routes, and includes parking areas for carpoolers and high-efficiency vehicles, and a stormwater-detention system for runoff. The building features water-efficient technology, daylighting and sunshades to reduce heat gain and glare. The university is sourcing 70 percent of it's power from Indianapolis Power and Light's Green Power Option, a program offering renewable energy procurement.

The Student and Faculty Support Center building houses 300 faculty and 200-400 students per day and includes energy efficiency through building design and operation, a 147-kilowatt solar electric system, a bio-retention stormwater management and is located close to public transportation.

This summer, the university installed a ground source heating and cooling system to help reduce dependence on fossil fuels and achieve carbon neutrality by 2019. The $150,000 project will pay for itself in seven years and is anticipated to save the university more than $650,000 over the course of its lifetime.

The university president recently signed a pledge committing the university to be powered from 100 percent renewable electricity by 2030, after more than 4,300 students, faculty and staff had signed a petition encouraging the university to consider the pledge. The university says that the decision to invest in renewable energy is due to the projected increase in energy prices over the next 20 years.

The university's energy management coordinator organized awards totaling more than $1.4 million for four energy projects: a solar energy storage system, thermal blankets to wrap heating piping in the mechanical rooms of buildings across campus to conserve energy and reduce heat loss, LED lighting upgrades and implement a summer demand response program.

Hillside Hall includes photovoltaic panels for electricity, green roofing, radiant heat, recycled building materials and no-touch water fountains. The renovation to the Fitness and Wellness Center includes the use of bamboo flooring and hydration stations.

With $21.5 million from private and public funding, the new Center for Environmental Science and International Partnership will be founded. As part of the project, a now century-old building will receive energy efficiency upgrades while a new building featuring an environmental science teaching lab and teaching spaces for on-campus undergraduate programs will be constructed. The new center will include a student commons to promote international and intercultural understanding.

The new building includes an outdoor terrace and roof garden space, storm water capture for reuse and irrigation, drinking fountains with bottle filling ability, and a hybrid HVAC system that uses under-floor air, active chilled beams and variable air volume systems, all designed to reduce the amount of power needed to move air for heating and cooling.

The new freshmen dormitory features solar pre-heated water for domestic uses, low-flow faucets and shower heads, covered bicycle storage facilities and the use of beetle-kill pine wood boards throughout the building.

The Undergraduate Teaching Laboratories was designed to use 40 percent less energy than similar lab buildings. Its designs include highly efficient heating and cooling systems, occupancy sensors that control lights and HVAC, low-flow water fixtures and lab technologies designed to conserve energy and water.

Playoff Green Project was an initiative to make the January 2017 College Football Playoff Championship game, held in Tampa, Florida, more sustainable by seeking to reduce food waste through donations, reduce solid waste by recycling and purchase renewable energy certificates.

Mohawk Tower, a 24-story residential high rise originally built in 1972, was recently renovated to include upgraded windows and awnings, energy-efficient lighting, dual-flush toilets and metered faucets, and the use of Forest Stewardship Council certified wood and low-volatile organic compound construction materials, such as adhesives and paints.

In October 2016, the university installed a one-megawatt combined heat-and-power (CHP) generator that will retrieve otherwise wasted heat, allowing the system to use the same amount of natural gas fuel input but produce more electricity. Emory's goal is to produce 10 percent of energy on campus by 2025.

In an effort to normalize what it pays for electricity and to further its environmental efforts, the university is moving forward with four photovoltaic arrays that are projected to provide approximately 17 percent of its annual electricity consumption. The university currently pays 3 cents per kilowatt-hour to Western Area Power Administration. Six months out of the year, BHSU exceeds its allocation from WAPA and then buys power from Black Hills Energy at a rate of 12 cents per kilowatt-hour. The solar power will replace the power bought from Black Hills Energy.

(India) The National Institute of Solar Energy recently completed the installation of a monitoring system that will help keep track of energy consumption as well as efficiency of power generating units. The school meets all its energy requirements through solar power and produces surplus that it can send back to the grid.

The university's Aquatic and Tennis Complex features recycled material use, such as steel, carpet and acoustical tiles, the use of native and climate-adapted plants, high-efficiency lamp sources and daylighting, and water-efficient fixtures and water bottle/drinking fountain stations.

In a lease agreement with Dominion Virginia Power, the university now has two photovoltaic array systems totaling 364-kilowatts. While the electricity is grid-tied, the university will be able to use the system for student and faculty research, and to raise awareness about renewable energy.

Construction began in September on a new Associated Students Sustainability Center, a multi-functional space serving as an expanded collections station for campus recyclables, the administrative hub of the Associated Students' sustainability programs and services and the administrative offices of the Institute for Sustainability. The building will include photovoltaic and solar hot water panels, a gray-water collection system and composting toilets.

The expansion of the university's Surrey campus will include a 161,000-square-foot building to house the proposed Energy Systems and Environmental Engineering Program, an interdisciplinary engineering stream that will support the clean tech and sustainable energy sector. The building's design, targeted for LEED Gold, will include electric vehicle charging stations and shared heat from the city's district energy system.

The U.S. Department of Energy Race to Zero Student Design Competition recently released the 50 teams competing in the next competition, which represent 44 collegiate institutions from four countries. The Race to Zero is an annual competition designed to advance and enhance building science curriculum in universities. Student teams are asked to design high-performance homes that are so energy-efficient that renewable power can offset most or all the annual energy consumption.

In the November 2016 issue, Architectural Record centered around design and development of the built environment on campuses across the U.S, with a spotlight on three schools. The issue highlighted Chatham University’s Eden Hall Campus, a full-cycle water reclamation, net-­positive energy production and zero-waste operations campus, Hampshire College's R.W. Kern Center, a building constructed to meet the Living Building Challenge guidelines, and Cornell University’s 352-unit, 26-story tower high-rise designed to Passive House standards (set to open 2017).

The U.S. Department of Energy's Better Buildings Challenge program recognized the university for its Energy Management Initiative, an approach to linking energy costs to building occupants in its Jacobs Hall facility, an interdisciplinary learning hub. After just five months in operation, the building expects energy savings of 65 percent, or $41,000 dollars. Through the Better Buildings Challenge, the Department of Energy aims to achieve the goal of doubling American energy productivity by 2030 while motivating leaders across the country to save energy through commitments and investments.

The 108-year-old residence hall now includes a new heating, ventilation and air conditioning (HVAC) system, high efficiency faucets and toilets, access to public transportation, low-emitting materials and energy efficient light controls.

The university partnered with the State of Ohio to conduct free energy audits of area buildings that help identify simple fixes and low-cost recommendations that could conserve energy and reduce operating costs. The initiative was made possible through a grant that the university’s Department of Mechanical Engineering received through the Ohio Lean Building Program, which is managed by the University of Dayton.

Projected to meet approximately 10 percent of the university electricity demand, the two-megawatt photovoltaic system is expected to be complete in 2016. Under a 25-year power purchase agreement, the university will purchase electricity directly from the array without needing to invest capital in construction and maintenance.

The newly constructed building uses water-efficient landscaping and plumbing fixtures, was built to allow 75 percent of spaces to have an outdoor view, contains 22 percent local materials and recycled 51 percent of construction waste.

The university is the first founding partner from the higher education community to sign on to Portico, a web-based application designed to simplify the analysis, selection and specification of building products that meet health and transparency objectives. Harvard’s Office for Sustainability and the Harvard T.H. Chan School of Public Health's Center for Health and the Global Environment will partner with Healthy Building Network and Google to foster opportunities for faculty and students to use the data available to generate new research and support existing initiatives on healthy buildings that are already underway at the university.

In a Campus Sustainability Month announcement, Keene stated it is using 100 percent purified waste vegetable oil to heat approximately 36 percent of campus. During August 2016, the college met the demand for heat and hot water using this fuel, which is helping the college reduce carbon emissions.

The new 640-bed, residential building includes views to the outdoors for 95 percent of occupied spaces, 90 percent of wood used was Forest Stewardship Council-certified and on-site filtration of storm water.

The new building minimizes consumption of water and energy, project materials contained recycled content, almost 50 percent of materials were manufactured in the region, and the project diverted more than 75 percent of construction waste from entering a landfill.

(Germany) The new building features a climate control system that includes two wells for groundwater that is used to cool the building. This is coupled with a software-controlled ventilation system that allows the air inside the building to mix with outside air to result in an even distribution of temperature without temperature stratification.

Located in a cold-weather climate with an average of 174 sunny days per year, students, in collaboration with the Sustainability Office, are involved in testing the efficacy of flat plate collectors versus evacuated tubes to determine the best renewable energy solution for campus' hot water.

The university's High Density Library features rainwater and snowmelt capture from the roof and landscaped areas in a stormwater pond that's used then treated through a constructed wetland, high-efficiency lighting and mechanical systems, a light-colored roof membrane to reduce heat absorption and for most staff, a direct line of sight to windows to contribute to a healthy workplace.

The result of approximately two years of planning resulted in planters set up on the college's student union roof filled with varietals of Sedums, which are plants well suited to rooftop gardens. The planters are supposed to absorb heat and ease the thermal load of the building.

Three residence halls will be the recipients of photovoltaic arrays to support research on how solar energy can be combined with other demand-side resources, resources such as battery systems. Seattle City Light's Green Up program is contributing $225,000, which enabled the university to compete for the Washington State Department of Commerce Solar Grant Program that is providing $225,000 in matching funds.

The one-year old building features a 65 percent reduction in energy costs through structural design and passive solar orientation, solar power generation, natural light, recycling and re-using grey water to flush toilets, and a focus on energy efficiency.

A $34 million renovation of the university's Hinkle Fieldhouse includes new roof with a white cap sheet that reflects sunlight, bicycle storage and changing rooms, low-flow water fixtures and a two-year contract to purchase at least 35 percent of the building’s electricity from renewable sources.

A key step in reaching the university system's goal of carbon neutrality by 2025, electricity produced by a recently completed, 60-megawatt (MW) solar farm will be purchased by the university, with nearly one-quarter going to UC Davis. The 60MW represents approximately 14 percent of the system's total usage and the university notes that an additional 20MW solar installation is set to come online by mid-2017.

The recent article looks at the College of Wooster and the College of Charleston, which have designed student housing that embraces the concept of tiny living, offering relatively few square-feet per student, while at the same time offering large community spaces to bring students together.

Replacing 540 compact fluorescent fixtures with 330 LED ones and dimmers was $200,000 and has been estimated to cut the college's power use by 80-kilowatts per month. The college will receive $16,000 in energy-efficiency rebates.

After seeing a presentation on Clean the World, an organization dedicated to making hygiene products accessible to people worldwide, the university-owned hotel was able to divert nearly two years worth of leftover soap and shampoos, totaling over 6,500 pounds, to the organization.

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The Association for the Advancement of Sustainability in Higher Education is a membership association of colleges & universities, businesses, and nonprofits who are working together to lead the sustainability transformation. Learn more about AASHE's mission.